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The response of coarse root biomass to long-term CO2 enrichment and nitrogen application in a maturing Pinus taeda stand with a large broadleaved component.

Publication ,  Journal Article
Maier, CA; Johnsen, KH; Anderson, PH; Palmroth, S; Kim, D; McCarthy, HR; Oren, R
Published in: Global change biology
February 2022

Elevated atmospheric CO2 (eCO2 ) typically increases aboveground growth in both growth chamber and free-air carbon enrichment (FACE) studies. Here we report on the impacts of eCO2 and nitrogen amendment on coarse root biomass and net primary productivity (NPP) at the Duke FACE study, where half of the eight plots in a 30-year-old loblolly pine (Pinus taeda, L.) plantation, including competing naturally regenerated broadleaved species, were subjected to eCO2 (ambient, aCO2 plus 200 ppm) for 15-17 years, combined with annual nitrogen amendments (11.2 g N m-2 ) for 6 years. Allometric equations were developed following harvest to estimate coarse root (>2 mm diameter) biomass. Pine root biomass under eCO2 increased 32%, 1.80 kg m-2 above the 5.66 kg m-2 observed in aCO2 , largely accumulating in the top 30 cm of soil. In contrast, eCO2 increased broadleaved root biomass more than twofold (aCO2 : 0.81, eCO2 : 2.07 kg m-2 ), primarily accumulating in the 30-60 cm soil depth. Combined, pine and broadleaved root biomass increased 3.08 kg m-2 over aCO2 of 6.46 kg m-2 , a 48% increase. Elevated CO2 did not increase pine root:shoot ratio (average 0.24) but increased the ratio from 0.57 to 1.12 in broadleaved species. Averaged over the study (1997-2010), eCO2 increased pine, broadleaved and total coarse root NPP by 49%, 373% and 86% respectively. Nitrogen amendment had smaller effects on any component, singly or interacting with eCO2 . A sustained increase in root NPP under eCO2 over the study period indicates that soil nutrients were sufficient to maintain root growth response to eCO2 . These responses must be considered in computing coarse root carbon sequestration of the extensive southern pine and similar forests, and in modelling the responses of coarse root biomass of pine-broadleaved forests to CO2 concentration over a range of soil N availability.

Duke Scholars

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Published In

Global change biology

DOI

EISSN

1365-2486

ISSN

1354-1013

Publication Date

February 2022

Volume

28

Issue

4

Start / End Page

1458 / 1476

Related Subject Headings

  • Soil
  • Pinus taeda
  • Nitrogen
  • Ecology
  • Carbon Dioxide
  • Biomass
  • 41 Environmental sciences
  • 37 Earth sciences
  • 31 Biological sciences
  • 06 Biological Sciences
 

Citation

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Maier, C. A., Johnsen, K. H., Anderson, P. H., Palmroth, S., Kim, D., McCarthy, H. R., & Oren, R. (2022). The response of coarse root biomass to long-term CO2 enrichment and nitrogen application in a maturing Pinus taeda stand with a large broadleaved component. Global Change Biology, 28(4), 1458–1476. https://doi.org/10.1111/gcb.15999
Maier, Chris A., Kurt H. Johnsen, Pete H. Anderson, Sari Palmroth, Dohyoung Kim, Heather R. McCarthy, and Ram Oren. “The response of coarse root biomass to long-term CO2 enrichment and nitrogen application in a maturing Pinus taeda stand with a large broadleaved component.Global Change Biology 28, no. 4 (February 2022): 1458–76. https://doi.org/10.1111/gcb.15999.
Maier CA, Johnsen KH, Anderson PH, Palmroth S, Kim D, McCarthy HR, et al. The response of coarse root biomass to long-term CO2 enrichment and nitrogen application in a maturing Pinus taeda stand with a large broadleaved component. Global change biology. 2022 Feb;28(4):1458–76.
Maier, Chris A., et al. “The response of coarse root biomass to long-term CO2 enrichment and nitrogen application in a maturing Pinus taeda stand with a large broadleaved component.Global Change Biology, vol. 28, no. 4, Feb. 2022, pp. 1458–76. Epmc, doi:10.1111/gcb.15999.
Maier CA, Johnsen KH, Anderson PH, Palmroth S, Kim D, McCarthy HR, Oren R. The response of coarse root biomass to long-term CO2 enrichment and nitrogen application in a maturing Pinus taeda stand with a large broadleaved component. Global change biology. 2022 Feb;28(4):1458–1476.
Journal cover image

Published In

Global change biology

DOI

EISSN

1365-2486

ISSN

1354-1013

Publication Date

February 2022

Volume

28

Issue

4

Start / End Page

1458 / 1476

Related Subject Headings

  • Soil
  • Pinus taeda
  • Nitrogen
  • Ecology
  • Carbon Dioxide
  • Biomass
  • 41 Environmental sciences
  • 37 Earth sciences
  • 31 Biological sciences
  • 06 Biological Sciences